Light- and Temperature-Controlled Hybridization, Chiral Induction and Handedness of Helical Foldamers

Youssef Aidibi; Soussana Azar; Louis Hardoin; Marie Voltz; Sébastien Goeb; Magali Allain; Marc Sallé; Romain Costil; Denis Jacquemin; Bernard Feringa; David Canevet

doi:10.1002/anie.202413629

Light- and Temperature-Controlled Hybridization, Chiral Induction and Handedness of Helical Foldamers

Youssef Aidibi, Soussana Azar, Louis Hardoin, Marie Voltz, Sébastien Goeb, Magali Allain, Marc Sallé, Romain Costil, Denis Jacquemin^*, Bernard Feringa^*, David Canevet^*

^*Corresponding author for this work

Synthetic Organic Chemistry

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Helical foldamers have attracted much attention over the last decades given their resemblance to certain biomacromolecules and their potential in domains as different as pharmaceutics, catalysis and photonics. Various research groups have successfully controlled the right- or left- handedness of these oligomers by introducing stereogenic centers through covalent or non-covalent chemistry. However, developing helical structures whose handedness can be reversibly switched remains a major challenge for chemists. To date, such an achievement has been reported with light-responsive single-stranded foldamers only. Herein, we demonstrate that grafting a unidirectional motor onto foldamer strands constitutes a relevant strategy to i) control the single or double helical state of a foldamer, ii) switch on the chiral induction process from the motor to the helical strands and iii) select the handedness of double helical structures through photochemical and thermal stimulations.

Original language	English
Article number	e202413629
Number of pages	8
Journal	Angewandte Chemie (International ed. in English)
Volume	64
Issue number	1
Early online date	31-Oct-2024
DOIs	https://doi.org/10.1002/anie.202413629
Publication status	Published - 2-Jan-2025

Keywords

Foldamers
Chirality
Photoswitch
Hybridization
Chiral induction

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title = "Light- and Temperature-Controlled Hybridization, Chiral Induction and Handedness of Helical Foldamers",

abstract = "Helical foldamers have attracted much attention over the last decades given their resemblance to certain biomacromolecules and their potential in domains as different as pharmaceutics, catalysis and photonics. Various research groups have successfully controlled the right- or left- handedness of these oligomers by introducing stereogenic centers through covalent or non-covalent chemistry. However, developing helical structures whose handedness can be reversibly switched remains a major challenge for chemists. To date, such an achievement has been reported with light-responsive single-stranded foldamers only. Herein, we demonstrate that grafting a unidirectional motor onto foldamer strands constitutes a relevant strategy to i) control the single or double helical state of a foldamer, ii) switch on the chiral induction process from the motor to the helical strands and iii) select the handedness of double helical structures through photochemical and thermal stimulations.",

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AU - Aidibi, Youssef

AU - Azar, Soussana

AU - Hardoin, Louis

AU - Voltz, Marie

AU - Goeb, Sébastien

AU - Allain, Magali

AU - Sallé, Marc

AU - Costil, Romain

AU - Jacquemin, Denis

AU - Feringa, Bernard

AU - Canevet, David

PY - 2025/1/2

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N2 - Helical foldamers have attracted much attention over the last decades given their resemblance to certain biomacromolecules and their potential in domains as different as pharmaceutics, catalysis and photonics. Various research groups have successfully controlled the right- or left- handedness of these oligomers by introducing stereogenic centers through covalent or non-covalent chemistry. However, developing helical structures whose handedness can be reversibly switched remains a major challenge for chemists. To date, such an achievement has been reported with light-responsive single-stranded foldamers only. Herein, we demonstrate that grafting a unidirectional motor onto foldamer strands constitutes a relevant strategy to i) control the single or double helical state of a foldamer, ii) switch on the chiral induction process from the motor to the helical strands and iii) select the handedness of double helical structures through photochemical and thermal stimulations.

AB - Helical foldamers have attracted much attention over the last decades given their resemblance to certain biomacromolecules and their potential in domains as different as pharmaceutics, catalysis and photonics. Various research groups have successfully controlled the right- or left- handedness of these oligomers by introducing stereogenic centers through covalent or non-covalent chemistry. However, developing helical structures whose handedness can be reversibly switched remains a major challenge for chemists. To date, such an achievement has been reported with light-responsive single-stranded foldamers only. Herein, we demonstrate that grafting a unidirectional motor onto foldamer strands constitutes a relevant strategy to i) control the single or double helical state of a foldamer, ii) switch on the chiral induction process from the motor to the helical strands and iii) select the handedness of double helical structures through photochemical and thermal stimulations.

KW - Foldamers

KW - Chirality

KW - Photoswitch

KW - Hybridization

KW - Chiral induction

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JO - Angewandte Chemie (International ed. in English)

JF - Angewandte Chemie (International ed. in English)

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M1 - e202413629

ER -

Light- and Temperature-Controlled Hybridization, Chiral Induction and Handedness of Helical Foldamers

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Keywords

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